Your search keyword '"Scurvy genetics"' showing total 26 results

1. A mummy emerges from the grave: Scurvy confounding the clinical presentation of a child with Fanconi anemia.

Author

Ozcan A, Saracoglu S, Verboon JM, Karakukcu M, Patiroglu T, Coskun A, Sankaran VG, and Unal E

Subjects

Allografts, Child, Female, Humans, Fanconi Anemia blood, Fanconi Anemia diagnostic imaging, Fanconi Anemia genetics, Fanconi Anemia therapy, Hematopoietic Stem Cell Transplantation, Scurvy blood, Scurvy diagnostic imaging, Scurvy genetics, Scurvy therapy, Tomography, X-Ray Computed

Published

2019

2. Ascorbic acid deficiency decreases hepatic cytochrome P-450, especially CYP2B1/2B2, and simultaneously induces heme oxygenase-1 gene expression in scurvy-prone ODS rats.

Author

Kobayashi M, Hoshinaga Y, Miura N, Tokuda Y, Shigeoka S, Murai A, and Horio F

Subjects

Animals, Disease Susceptibility, Electron Transport Complex IV metabolism, Lipopolysaccharides pharmacology, Liver drug effects, Male, Microsomes, Liver drug effects, Microsomes, Liver enzymology, Phenobarbital pharmacology, Rats, Scurvy metabolism, Aryl Hydrocarbon Hydroxylases metabolism, Cytochrome P-450 CYP2B1 metabolism, Gene Expression Regulation, Enzymologic, Heme Oxygenase-1 genetics, Liver enzymology, Scurvy enzymology, Scurvy genetics, Steroid Hydroxylases metabolism

Abstract

The mechanisms underlying the decrease in hepatic cytochrome P-450 (CYP) content in ascorbic acid deficiency was investigated in scurvy-prone ODS rats. First, male ODS rats were fed a diet containing sufficient ascorbic acid (control) or a diet without ascorbic acid (deficient) for 18 days, with or without the intraperitoneal injection of phenobarbital. Ascorbic acid deficiency decreased hepatic microsomal total CYP content, CYP2B1/2B2 protein, and mitochondrial cytochrome oxidase (COX) complex IV subunit I protein, and simultaneously increased heme oxygenase-1 protein in microsomes and mitochondria. Next, heme oxygenase-1 inducers, that is lipopolysaccharide and hemin, were administered to phenobaribital-treated ODS rats fed sufficient ascorbic acid. The administration of these inducers decreased hepatic microsomal total CYP content, CYP2B1/2B2 protein, and mitochondrial COX complex IV subunit I protein. These results suggested that the stimulation of hepatic heme oxygenase-1 expression by ascorbic acid deficiency caused the decrease in CYP content in liver.

Published

2014

3. Genetic aspects of scurvy and the European famine of 1845-1848.

Author

Delanghe JR, De Buyzere ML, Speeckaert MM, and Langlois MR

Subjects

Ascorbic Acid blood, Europe, Genotype, Haptoglobins genetics, Haptoglobins metabolism, Hemochromatosis blood, Hemochromatosis genetics, Hemochromatosis Protein, Histocompatibility Antigens Class I genetics, Histocompatibility Antigens Class I metabolism, History, 19th Century, Humans, Iron blood, Iron Overload blood, Iron Overload genetics, Male, Membrane Proteins genetics, Membrane Proteins metabolism, Phenotype, Polymorphism, Genetic, Scurvy etiology, Scurvy mortality, Starvation etiology, Starvation mortality, Scurvy genetics, Scurvy history, Starvation genetics, Starvation history, White People genetics

Abstract

The view of scurvy being exclusively a nutritional disorder needs to be updated. Genetic polymorphisms of HFE and haptoglobin (Hp) may explain the geographic variability of mortality caused by the European famine of the mid-19th century. In this period, potatoes had fallen victim to the potato blight and Ireland was more severely hit than continental Europe. Hereditary hemochromatosis is a genetic disorder with mutations in the HFE gene, characterized by iron overload (with a reduced vitamin C stability) and with a predominance of affected men. The Irish have the world's highest frequency of the C282Y mutation and the particular iron metabolism of the Irish helps to understand the size of the catastrophe and the observed overrepresentation of male skeletons showing scurvy. Hp is a plasma α2-glycoprotein characterized by 3 common phenotypes (Hp 1-1, Hp 2-1 and Hp 2-2). When the antioxidant capacity of Hp is insufficient, its role is taken over by hemopexin and vitamin C. The relative number of scurvy victims corresponds with the Hp 2-2 frequency, which is associated with iron conservation and has an impact on vitamin C stability. As iron is more abundant in males, males are overrepresented in the group of skeletons showing scurvy signs.

Published

2013

4. Endoplasmic reticulum thiol oxidase deficiency leads to ascorbic acid depletion and noncanonical scurvy in mice.

Author

Zito E, Hansen HG, Yeo GS, Fujii J, and Ron D

Subjects

Animals, Ascorbic Acid pharmacology, Cells, Cultured, Connective Tissue metabolism, Connective Tissue pathology, Disease Models, Animal, Disulfides metabolism, Female, Glycoproteins deficiency, Glycoproteins genetics, Male, Mice, Mice, Mutant Strains, Mutation, Oxidation-Reduction, Oxidoreductases deficiency, Oxidoreductases genetics, Peroxiredoxins deficiency, Peroxiredoxins genetics, Peroxiredoxins metabolism, Procollagen metabolism, Protein Folding, Protein Processing, Post-Translational drug effects, Scurvy genetics, Scurvy pathology, Sulfenic Acids metabolism, Transforming Growth Factor beta metabolism, Ascorbic Acid metabolism, Endoplasmic Reticulum metabolism, Glycoproteins metabolism, Oxidoreductases metabolism, Scurvy etiology, Scurvy metabolism

Abstract

Endoplasmic reticulum (ER) thiol oxidases initiate a disulfide relay to oxidatively fold secreted proteins. We found that combined loss-of-function mutations in genes encoding the ER thiol oxidases ERO1α, ERO1β, and PRDX4 compromised the extracellular matrix in mice and interfered with the intracellular maturation of procollagen. These severe abnormalities were associated with an unexpectedly modest delay in disulfide bond formation in secreted proteins but a profound, 5-fold lower procollagen 4-hydroxyproline content and enhanced cysteinyl sulfenic acid modification of ER proteins. Tissue ascorbic acid content was lower in mutant mice, and ascorbic acid supplementation improved procollagen maturation and lowered sulfenic acid content in vivo. In vitro, the presence of a sulfenic acid donor accelerated the oxidative inactivation of ascorbate by an H(2)O(2)-generating system. Compromised ER disulfide relay thus exposes protein thiols to competing oxidation to sulfenic acid, resulting in depletion of ascorbic acid, impaired procollagen proline 4-hydroxylation, and a noncanonical form of scurvy., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

5. Vitamin C deficiency and scurvy are not only a dietary problem but are codetermined by the haptoglobin polymorphism.

Author

Delanghe JR, Langlois MR, De Buyzere ML, and Torck MA

Subjects

American Indian or Alaska Native, Asian People, Gene Frequency, Genetic Predisposition to Disease, History, 16th Century, History, 17th Century, History, 19th Century, History, Medieval, Humans, Polymorphism, Genetic, Scurvy epidemiology, Scurvy history, White People, Ascorbic Acid administration & dosage, Ascorbic Acid Deficiency genetics, Diet, Haptoglobins genetics, Scurvy genetics

Abstract

Ascorbic acid (vitamin C) is prone to oxidation in vivo. The human plasma protein haptoglobin (Hp) shows a genetic polymorphism with 3 major phenotypes (Hp 1-1, Hp 2-1, and Hp 2-2) that show important functional differences. Despite an adequate nutritional supply, in Hp 2-2 individuals (most common among Asian populations) vitamin C is markedly lower in concentration and particularly prone to oxidation in vivo. Therefore, susceptibility to subclinical and clinical vitamin C deficiency (scurvy) is partly genetically determined. The genetic advantage of the Hp1 allele as a vitamin C stabilizing factor helps to elucidate the direction and successes of long-distance sea crossing human migrations in history. Clinical trials demonstrated Hp phenotype-related effects of antioxidant treatment. Because vitamin C is a first line antioxidant, Hp polymorphism and its effects on vitamin C have major clinical consequences; a marked difference in genetic susceptibility toward atherosclerosis between Hp phenotypes is attributable to variation in LDL oxidation. The classical view of vitamin C and scurvy being a pure nutritional condition needs to be updated. These findings should foster research investigating the role of Hp polymorphism in human disease, and in vitamin C deficiency and atherosclerosis in particular.

Published

2007

6. Senescence marker protein 30 functions as gluconolactonase in L-ascorbic acid biosynthesis, and its knockout mice are prone to scurvy.

Author

Kondo Y, Inai Y, Sato Y, Handa S, Kubo S, Shimokado K, Goto S, Nishikimi M, Maruyama N, and Ishigami A

Subjects

Aging physiology, Amino Acid Sequence, Animals, Biomarkers metabolism, Body Weight, Calcium-Binding Proteins deficiency, Calcium-Binding Proteins genetics, Carboxylic Ester Hydrolases deficiency, Carboxylic Ester Hydrolases genetics, Intracellular Signaling Peptides and Proteins, Kinetics, Mice, Mice, Knockout, Molecular Sequence Data, Rats, Sequence Alignment, Sequence Homology, Amino Acid, Substrate Specificity, Sulfotransferases, Ascorbic Acid biosynthesis, Calcium-Binding Proteins metabolism, Carboxylic Ester Hydrolases metabolism, Scurvy genetics

Abstract

We originally identified senescence marker protein 30 (SMP30) as a distinctive protein whose expression decreases in an androgen-independent manner with aging. Here, we report its sequence homology found in two kinds of bacterial gluconolactonases (GNLs) by using the blast search. Then, through a biochemical study, we identify SMP30 as the lactone-hydrolyzing enzyme GNL of animal species. SMP30 purified from the rat liver had lactonase activity toward various aldonolactones, such as d- and l-glucono-delta-lactone, d- and l-gulono-gamma-lactone, and d- and l-galactono-gamma-lactone, with a requirement for Zn(2+) or Mn(2+) as a cofactor. Furthermore, in SMP30 knockout mice, no GNL activity was detectable in the liver. Thus, we conclude that SMP30 is a unique GNL in the liver. The lactonase reaction with l-gulono-gamma-lactone is the penultimate step in l-ascorbic acid (AA) biosynthesis, and the essential role of SMP30 in this synthetic process was verified here by a nutritional study using SMP30 knockout mice. These knockout mice (n = 6), fed a vitamin C-deficient diet, did not thrive; i.e., they displayed symptoms of scurvy such as bone fracture and rachitic rosary and then died by 135 days after the start of receiving the deficient diet. The AA levels in their livers and kidneys at the time of death were <1.6% of those in WT control mice. In addition, by using the SMP30 knockout mouse, we demonstrate that the alternative pathway of AA synthesis involving d-glucurono-gamma-lactone operates in vivo, although its flux is fairly small.

Published

2006

7. Ascorbic acid deficiency stimulates hepatic expression of inflammatory chemokine, cytokine-induced neutrophil chemoattractant-1, in scurvy-prone ODS rats.

Author

Horio F, Kiyama K, Kobayashi M, Kawai K, and Tsuda T

Subjects

Animals, Apolipoprotein A-I genetics, Apolipoproteins E genetics, Ascorbic Acid analysis, Ascorbic Acid blood, Ascorbic Acid Deficiency genetics, Blotting, Northern, Body Weight, Chemokine CXCL1, Chemokines, CXC analysis, Chemokines, CXC blood, Genetic Predisposition to Disease, Haptoglobins genetics, Liver chemistry, Lung chemistry, Male, Organ Size, RNA, Messenger analysis, Rats, Rats, Mutant Strains, Spleen chemistry, Ascorbic Acid Deficiency metabolism, Chemokines, CXC genetics, Gene Expression, Liver metabolism, Scurvy genetics

Abstract

ODS rat has a hereditary defect in ascorbic acid biosynthesis and is a useful animal model for elucidating the physiological role of ascorbic acid. We previously demonstrated by using ODS rats that ascorbic acid deficiency changes the hepatic gene expression of acute phase proteins, as seen in acute inflammation. In this study, we investigated the effects of ascorbic acid deficiency on the production of inflammatory chemokine, cytokine-induced neutrophil chemoattractant-1 (CINC-1), in ODS rats. Male ODS rats (6 wk of age) were fed a basal diet containing ascorbic acid (300 mg/kg diet) or a diet without ascorbic acid for 14 d. Obvious symptoms of scurvy were not observed in the ascorbic acid-deficient rats. Ascorbic acid deficiency significantly elevated the serum concentration of CINC-1 on d 14. The liver and spleen CINC-1 concentrations in the ascorbic acid-deficient rats were significantly elevated to 600% and 180% of the respective values in the control rats. However, the lung concentration of CINC-1 was not affected by ascorbic acid deficiency. Ascorbic acid deficiency significantly elevated the hepatic mRNA level of CINC-1 (to 480% of the value in the control rats), but not the lung mRNA level. These results demonstrate that ascorbic acid deficiency elevates the serum, liver and spleen concentrations of CINC-1 as seen in acute inflammation, and suggest that ascorbic acid deficiency stimulate the hepatic CINC-1 gene expression.

Published

2006

8. The whole structure of the human nonfunctional L-gulono-gamma-lactone oxidase gene--the gene responsible for scurvy--and the evolution of repetitive sequences thereon.

Author

Inai Y, Ohta Y, and Nishikimi M

Subjects

Animals, Base Sequence, Codon, Exons, Gene Deletion, Guinea Pigs, L-Gulonolactone Oxidase, Molecular Sequence Data, Rats, Sequence Analysis, DNA, Alu Elements genetics, DNA chemistry, Evolution, Molecular, Scurvy genetics, Sugar Alcohol Dehydrogenases genetics

Abstract

L-Gulono-gamma-lactone oxidase (GULO), which catalyzes the last step of ascorbic acid biosynthesis, is missing in humans. The whole structure of the human gene homologue for this enzyme was disclosed by a computer-assisted search. Only five exons, as compared to 12 exons constituting the functional rat GULO gene, remain in the human genome. A comparison of these exons with those of their functional counterparts in rat showed that there are two single nucleotide deletions, one triple nucleotide deletion, and one single nucleotide insertion in the human sequence. When compared in terms of codons, the human sequence has a deletion of a single amino acid, two stop codons, and two aberrant codons missing one nucleotide besides many amino acid substitutions. A comparison of the remaining human exon sequences with the corresponding sequences of the guinea pig nonfunctional GULO gene revealed that the same substitutions from rats to both species occurred at a large number of nucleotide positions. From analyses of the molecular evolution of Alu sequences in the human GULO gene homologue, it is thought that two Alu sequences were inserted in the vicinity of a presumed position of lost exon 11 during the same period as GULO lost its function. It is predicted that six LINE-1 sequences located in and near the gene homologue were inserted not during that period.

Published

2003

9. Dietary docosahexaenoic acid-induced production of tissue lipid peroxides is not suppressed by higher intake of ascorbic acid in genetically scorbutic Osteogenic Disorder Shionogi/Shi-od/od rats.

Author

Sekine S, Kubo K, Tadokoro T, Maekawa A, and Saito M

Subjects

Animals, Ascorbic Acid analysis, Bone Diseases, Metabolic genetics, Glutathione analysis, Male, Osteogenesis physiology, Rats, Rats, Inbred Strains, Scurvy genetics, Testis metabolism, alpha-Tocopherol analysis, Ascorbic Acid administration & dosage, Bone Diseases, Metabolic metabolism, Dietary Fats, Unsaturated metabolism, Docosahexaenoic Acids metabolism, Kidney metabolism, Lipid Peroxidation physiology, Lipid Peroxides biosynthesis, Liver metabolism, Scurvy metabolism

Abstract

In previous studies, we showed that docosahexaenoic acid (DHA) ingestion enhanced the susceptibility of rat liver and kidney to lipid peroxidation, but did not increase lipid peroxide formation to the level expected from the relative peroxidizability index (P-index) of the total tissue lipids. The results suggested the existence of some suppressive mechanisms against DHA-induced tissue lipid peroxide formation, as increased tissue ascorbic acid (AsA) and glutathione levels were observed. Therefore, we focused initially on the role of AsA for the suppressive mechanisms. For this purpose, we examined the influence of different levels of dietary AsA (low, moderate, high and excessive levels were 100, 300 (control), 600 and 3000 mg/kg diet respectively) on the tissue lipid peroxide and antioxidant levels in AsA-requiring Osteogenic Disorder Shionogi/Shi-od/od (ODS) rats fed DHA (6.4 % total energy) for 32 or 33 d. Diets were pair-fed to the DHA- and 100 mg AsA/kg diet-fed group. We found that the lipid peroxide concentrations of liver and kidney in the DHA-fed group receiving 100 mg AsA/kg diet were significantly higher or tended to be higher than those of the DHA-fed groups with AsA at more than the usual control level of 300 mg/kg diet. Contrary to this, the liver alpha-tocopherol concentration was significantly lower or tended to be lower in the DHA and 100 mg AsA/kg diet-fed group than those of the other DHA-fed groups. However, tissue lipid peroxide formation and alpha-tocopherol consumption were not suppressed further, even after animals received higher doses of AsA. The present results suggest that higher than normal concentrations of tissue AsA are not necessarily associated with the suppressive mechanisms against dietary DHA-induced tissue lipid peroxide formation.

Published

2003

10. Regulation and properties of bone alkaline phosphatase during vitamin C deficiency in guinea pigs.

Author

Mahmoodian F, Gosiewska A, and Peterkofsky B

Subjects

Animals, Collagen genetics, Female, Gene Expression, Glycosylation, Guinea Pigs, Isoenzymes metabolism, Liver enzymology, Molecular Weight, Osteocalcin genetics, Osteopontin, Protein Processing, Post-Translational, RNA, Messenger genetics, Scurvy genetics, Sialoglycoproteins genetics, Alkaline Phosphatase metabolism, Bone and Bones enzymology, Scurvy enzymology

Abstract

The precise physiological role of alkaline phosphatase is unknown, although evidence suggests it is involved in bone mineralization. Previous studies showed that serum and bone alkaline phosphatase activity is decreased during vitamin C deficiency. Some effects of scurvy, such as inhibition of collagen synthesis, are related to weight loss and subsequent induction of insulin-like growth factor binding proteins and they can be duplicated in fasted guinea pigs receiving vitamin C. We found that decreased alkaline phosphatase activity in bone and serum during scurvy was not completely due to the "fasting effect" and that the decrease in serum was due to loss of bone isoenzyme activity. There also was a decrease in immunoreactive enzyme protein and alkaline phosphatase mRNA concentrations in bone of scorbutic animals, indicating that synthesis of the enzyme was inhibited. Sialylation and addition of the glycosylphosphatidylinositol anchor to the enzyme in bone tissue were not affected by scurvy. The concentration of mRNA for osteocalcin, a bone-specific marker, also fell during scurvy and to a much greater extent than either alkaline phosphatase or type I collagen mRNAs, while osteopontin mRNA concentrations increased. These results differ from the reported role of ascorbic acid on the pattern of expression of these proteins during differentiation of osteoblasts in culture. The decreased expression of collagen, alkaline phosphatase, and osteocalcin could explain the defects in bone caused by scurvy.

Published

1996

11. Ascorbic acid deficiency reduces hepatic apolipoprotein A-I mRNA in scurvy-prone ODS rats.

Author

Ikeda S, Horio F, Yoshida A, and Kakinuma A

Subjects

Animals, Apolipoprotein A-I analysis, Apolipoprotein A-I metabolism, Ascorbic Acid Deficiency metabolism, Ascorbic Acid Deficiency physiopathology, Gene Expression Regulation, Genotype, Jejunum chemistry, Jejunum metabolism, Liver chemistry, Male, Osteogenesis physiology, RNA, Messenger analysis, RNA, Messenger genetics, Rats, Scurvy metabolism, Scurvy physiopathology, Transcription, Genetic physiology, Weight Gain physiology, Apolipoprotein A-I genetics, Ascorbic Acid Deficiency genetics, Liver metabolism, Osteogenesis genetics, RNA, Messenger metabolism, Scurvy genetics

Abstract

Using the ODS rat (genotype od/od) as a model, we investigated the effect of ascorbic acid deficiency on the expression of the apolipoprotein A-I gene. Male ODS rats (7 wk old, body weight approximately 140 g) were fed a basal diet containing ascorbic acid (300 mg/kg) or a diet without ascorbic acid for 14 d. Ascorbic acid deficiency lowered the serum apolipoprotein A-I concentration. The apolipoprotein A-I mRNA level in the liver of ascorbic acid-deficient rats was lowered to about 40% (P < 0.05) of that of control rats fed sufficient ascorbic acid. The mRNA level in jejunum was not affected by ascorbic acid deficiency. Ascorbic acid deficiency did not change the transcriptional rate of the hepatic apolipoprotein A-I gene, suggesting that post-transcriptional regulation was involved in lowering the mRNA level. The low level of hepatic apolipoprotein A-I mRNA was restored to the control level within 3 d after the administration of sufficient ascorbic acid. These data indicate that ascorbic acid deficiency lowers serum apolipoprotein A-I concentration through lowering its mRNA level and subsequent depression of its synthesis in liver.

Published

1996

12. Transgenic expression of L-gulono-gamma-lactone oxidase in medaka (Oryzias latipes), a teleost fish that lacks this enzyme necessary for L-ascorbic acid biosynthesis.

Author

Toyohara H, Nakata T, Touhata K, Hashimoto H, Kinoshita M, Sakaguchi M, Nishikimi M, Yagi K, Wakamatsu Y, and Ozato K

Subjects

Animals, Animals, Genetically Modified, Base Sequence, DNA Primers, Fish Diseases, Gene Expression, L-Gulonolactone Oxidase, Male, Molecular Sequence Data, Oryzias, Polymerase Chain Reaction, Rats, Scurvy genetics, Scurvy veterinary, Ascorbic Acid biosynthesis, Sugar Alcohol Dehydrogenases biosynthesis, Sugar Alcohol Dehydrogenases genetics

Abstract

Transfer of the gene for L-gulono-gamma-lactone oxidase, the missing enzyme in L-ascorbic acid biosynthesis in scurvy-prone animals, into medaka (Oryzias latipes) was successfully done. The expression plasmid pSVL-GLO, carrying rat liver L-gulono-gamma-lactone oxidase cDNA, was microinjected into the cytoplasm of fertilized eggs during the one-cell stage. Four male F0 fish having the transgene in their germ cells came to maturity, and F1 progeny derived from one of the F0 fish possessed L-gulono-gamma-lactone oxidase activity, indicating that the transgene was functionally expressed in the fish. Genomic Southern blot analysis demonstrated that the transgene existed in both chromosome-integrated and extrachromosomal forms.

Published

1996

13. Gene expression of iron-related proteins during iron deficiency caused by scurvy in guinea pigs.

Author

Gosiewska A, Mahmoodian F, and Peterkofsky B

Subjects

Aconitate Hydratase metabolism, Amino Acid Sequence, Animals, Base Sequence, Cytosol enzymology, DNA, Complementary genetics, Ferritins chemistry, Ferritins genetics, Gene Expression Regulation, Guinea Pigs, Iron blood, Iron-Regulatory Proteins, Liver metabolism, Molecular Sequence Data, Oligonucleotide Probes genetics, Protein Conformation, Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, RNA-Binding Proteins blood, RNA-Binding Proteins genetics, Receptors, Transferrin genetics, Scurvy complications, Scurvy metabolism, Transferrin genetics, Transferrin metabolism, Weight Loss physiology, Iron Deficiencies, Proteins genetics, Scurvy genetics

Abstract

The regulation of expression of hepatic iron-related proteins was examined during iron deficiency caused by scurvy in guinea pigs. Previous studies showed that some effects of scurvy, such as suppression of collagen gene expression, result from events associated with weight loss. During the initial phase of scurvy when vitamin C is depleted but animals grow normally, serum iron levels decreased to 50% of normal. During the second phase of scurvy when animals lose weight, there was a further decrease in iron levels to 10-15% of normal. Serum transferrin levels increased during scurvy, but this increase was related neither to the rate of weight loss nor to hepatic transferrin mRNA expression, which decreased. Serum ferritin levels of diminished early in scurvy with a preferential loss of the L subunit. In liver, however, both ferritin animals gaining weight. Ferritin gene expression during vitamin C deficiency was correlated with serum ferritin levels in that the level of mRNA for the H subunit remained relatively constant while that of the L subunit decreased early. Transferrin receptor mRNA expression in liver was induced as soon as iron levels decreased early in scurvy, which is similar to results reported for iron-depleted cultured cells. In contrast to results in cell culture, expression of iron regulatory protein 1 mRNA was decreased to approximately 50% of normal early in scurvy with a concomitant decrease in hepatic cytosolic aconitase activity. Our data indicate that iron deficiency occurs early during vitamin C deficiency and leads to changes in expression of iron-related proteins that differ in some aspects from regulation by iron in cell culture. Other events associated with weight loss in late scurvy may play a further role in this regulation.

Published

1996

14. A missense mutation of L-gulono-gamma-lactone oxidase causes the inability of scurvy-prone osteogenic disorder rats to synthesize L-ascorbic acid.

Author

Kawai T, Nishikimi M, Ozawa T, and Yagi K

Subjects

Animals, Base Sequence, Blotting, Northern, Cell Line, Transformed, Cells, Cultured, DNA, Genetic Predisposition to Disease, L-Gulonolactone Oxidase, Molecular Sequence Data, Polymerase Chain Reaction, RNA, Messenger metabolism, Rats, Rats, Mutant Strains, Ascorbic Acid biosynthesis, Mutation, Scurvy genetics, Sugar Alcohol Dehydrogenases genetics

Abstract

The osteogenic disorder Shionogi (ODS) rat is a mutant Wistar rat that is subject to scurvy, because it lacks L-gulono-gamma-lactone oxidase, a key enzyme in L-ascorbic acid biosynthesis. Sequencing of polymerase chain reaction-amplified cDNAs for mutant and normal rat L-gulono-gamma-lactone oxidases demonstrated that the mutant cDNA has a single base mutation from G to A at nucleotide 182, which mutation alters the 61st amino acid residue from Cys to Tyr. To test the effect of this mutation on the expression of L-gulono-gamma-lactone oxidase, we inserted a region of the cDNAs coding for normal and mutant L-gulono-gamma-lactone oxidases into an expression vector, pSVL, and transfected COS-1 cells with such vectors. The result indicated that the defined amino acid substitution does decrease both the amount of immunologically detectable protein and the level of enzyme activity to about one-tenth of their normal values, while it does not affect the amount of the mRNA produced in the transfected cells. This situation is similar to our previous observation that L-gulono-gamma-lactone oxidase is expressed in the liver of the ODS rat at a very low level irrespective of the presence of a normal amount of L-gulono-gamma-lactone oxidase-specific mRNA of a normal size (Nishikimi, M., Koshizaka, T., Kondo, K., and Yagi, K. (1989) Experientia (Basel) 45, 126-129). Thus it became clear that the Cys-->Tyr substitution is responsible for the L-gulono-gamma-lactone oxidase deficiency in the ODS rat.

Published

1992

15. [Molecular genetic study on the incapability of synthesising ascorbic acid in scurvy-prone animals].

Author

Nishikimi M and Yagi K

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA genetics, Humans, L-Gulonolactone Oxidase, Molecular Sequence Data, Mutation, RNA, Messenger, Scurvy metabolism, Sugar Alcohol Dehydrogenases deficiency, Sugar Alcohol Dehydrogenases metabolism, Ascorbic Acid biosynthesis, Scurvy genetics, Sugar Alcohol Dehydrogenases genetics

Published

1990

16. [The relationship between illness in the aged and in inherently scorbutic rats (ODS rats)].

Author

Kono K, Hayakawa M, Asai K, Kuzuya F, and Harada T

Subjects

Aged, Animals, Ascorbic Acid Deficiency complications, Humans, Rats, Rats, Mutant Strains, Scurvy genetics, Keratitis etiology, Osteoporosis etiology, Pulmonary Emphysema etiology, Scurvy physiopathology

Published

1988

17. Studies on ascorbic acid related to the genetic basis of scurvy.

Author

Sato P and Udenfriend S

Subjects

Animals, Ascorbic Acid biosynthesis, Flavins metabolism, Guinea Pigs, Haplorhini, Humans, Kinetics, Lactones, Molecular Weight, Scurvy enzymology, Scurvy metabolism, Species Specificity, Sugar Alcohol Dehydrogenases genetics, Sugar Alcohol Dehydrogenases isolation & purification, Sugar Alcohol Dehydrogenases metabolism, Ascorbic Acid genetics, Scurvy genetics

Published

1978

18. Expression of the mutant gene for L-gulono-gamma-lactone oxidase in scurvy-prone rats.

Author

Nishikimi M, Koshizaka T, Kondo K, Ozawa T, and Yagi K

Subjects

Animals, Cell-Free System, DNA Probes, DNA Restriction Enzymes, L-Gulonolactone Oxidase, Microsomes, Liver enzymology, Molecular Weight, Mutation, Nucleic Acid Hybridization, Polymorphism, Restriction Fragment Length, Protein Biosynthesis, RNA, Messenger analysis, RNA, Messenger genetics, Rats, Rats, Inbred Strains, Scurvy genetics, Transcription, Genetic, Scurvy enzymology, Sugar Alcohol Dehydrogenases genetics

Abstract

A mutant strain of Wistar rats with L-gulono-gamma-lactone oxidase deficiency has recently been established. To investigate this deficiency by DNA and RNA blot hybridization analyses, a fragment of a previously cloned cDNA encoding rat L-gulono-gamma-lactone oxidase was used as a probe. When genomic DNA of the mutant rat was digested with several restriction enzymes, the probe hybridized to fragments of the same sizes as those produced from DNA of normal rats. Poly(A)+RNA from the liver of the mutant rat was found to contain an L-gulono-gamma-lactone oxidase-specific mRNA of a normal size at a comparable level to that of normal rats. An in vitro translation experiment revealed that the mRNA programmed the synthesis of an enzyme protein which had the same molecular weight as that of the translational product of the normal mRNA, although the amount synthesized was markedly reduced as compared with that synthesized with the normal mRNA. In accordance with this observation, a very low but definite degree of L-gulono-gamma-lactone oxidase activity was detected in the microsomes of the mutant rat by a newly developed, highly sensitive method.

Published

1989

19. Scurvy-prone animals, including man, monkey, and guinea pig, do not express the gene for gulonolactone oxidase.

Author

Sato P and Udenfriend S

Subjects

Animals, Genes, Gluconates, Humans, Kidney enzymology, Microsomes, Liver enzymology, Radioimmunoassay, Scurvy genetics, Spleen enzymology, Alcohol Oxidoreductases genetics, Cercopithecus genetics, Chlorocebus aethiops genetics, Guinea Pigs genetics, Microsomes enzymology, Scurvy enzymology

Published

1978

20. Congenital ascorbic acid deficiency in pigs.

Author

Jensen PT, Basse A, Nielsen DH, and Larsen H

Subjects

Animals, Scurvy congenital, Scurvy genetics, Scurvy pathology, Swine, Swine Diseases genetics, Swine Diseases pathology, Scurvy veterinary, Swine Diseases congenital

Published

1983

21. Letter: More on ascorbate.

Author

Stone I

Subjects

Adult, Animals, Ascorbic Acid metabolism, Ascorbic Acid therapeutic use, Genes, Goats, Humans, Nutritional Requirements, Scurvy genetics, Scurvy prevention & control, Ascorbic Acid administration & dosage

Published

1974

22. Cholesterol metabolism in inherently scorbutic rats (ODS rats).

Author

Kono K, Hayakawa M, Asai K, and Kuzuya F

Subjects

Animals, Ascorbic Acid Deficiency genetics, Ascorbic Acid Deficiency metabolism, Cholesterol blood, Female, Lipoproteins, HDL blood, Lipoproteins, HDL metabolism, Liver metabolism, Male, Rats, Rats, Inbred Strains, Rats, Mutant Strains, Risk Factors, Scurvy genetics, Cholesterol metabolism, Scurvy metabolism

Abstract

We observed the cholesterol metabolism of a colony of Wistar rats with a hereditary defect in vitamin C synthesizing ability (the ODS (osteogenic disorder-Shionogi) rats) in six kinds of experiments. Female ODS rats aged 36 days had a low HDL (high-density lipoprotein)-cholesterol level in serum as compared with age-matched control rats in spite of the absence of scorbutic symptoms. Female ODS rats aged 63 days which revealed severe scorbutic symptoms had a very low HDL-cholesterol level (mean value; 17 mg/dl). And male ODS rats, whose lives had been prolonged by supplementing with L-ascorbic acid, also had lower serum HDL-cholesterol and had increased total cholesterol in serum and liver when the acid supplement dose was relatively insufficient. On the other hand, we examined HDL2- and HDL3-cholesterol levels in serum to determine the mechanism of low HDL-cholesterol. As a result, we observed a low HDL2-cholesterol level in ODS rats but normal HDL3-cholesterol level. But the authors observed no decrease of LCAT (lecithin: cholesterol acyltransferase) activity in serum of ODS rats. These results could be due to disturbance of lipid metabolism in a vitamin C-deficient condition, that is to say, there might be abnormalities of the cholesterol excretion pathway of bile acid from liver, and maturity of the HDL-cholesterol particle due to other factors except that of LCAT activity.

Published

1988

23. The classification of heritable disorders of connective tissue.

Author

McKusick VA

Subjects

Adult, Cutis Laxa genetics, Cystathionine beta-Synthase deficiency, Ehlers-Danlos Syndrome classification, Ehlers-Danlos Syndrome genetics, Female, Homocystinuria etiology, Homocystinuria genetics, Humans, Infant, Infant Nutritional Physiological Phenomena, Male, Marfan Syndrome genetics, Middle Aged, Mucopolysaccharidoses genetics, Osteogenesis Imperfecta genetics, Phenotype, Pseudoxanthoma Elasticum genetics, Scurvy genetics, Sex Chromosomes, Syndrome, Connective Tissue, Marfan Syndrome etiology

Published

1975

24. [Möller-Barlow disease and Jaksch-Hayem anemia in 2 infants from twin pregnancies].

Author

Stolyhwo-Suchanek A, Sloma-Walejko B, and Zawistowska E

Subjects

Humans, Infant, Male, Diseases in Twins, Hemoglobinopathies genetics, Infant Nutrition Disorders genetics, Malabsorption Syndromes genetics, Scurvy genetics

Published

1968

25. Hypoascorbemia, the genetic disease causing the human requirement for exogenous ascorbic acid.

Author

Stone I

Subjects

Ascorbic Acid therapeutic use, Humans, Liver enzymology, Scurvy drug therapy, Scurvy etiology, Alcohol Oxidoreductases, Metabolism, Inborn Errors, Scurvy genetics

Published

1966

26. On the genetic etiology of scurvy.

Author

Stone I

Subjects

Humans, Ascorbic Acid metabolism, Metabolism, Inborn Errors, Scurvy genetics

Published

1966